2009
DOI: 10.1021/cg8009404
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Interfacial Diffusion during Growth of SnO2(110) on TiO2(110) by Oxygen Plasma Assisted Molecular Beam Epitaxy

Abstract: Oxygen plasma-assisted molecular beam epitaxy was used to grow layers of SnO 2 on single-crystal rutile TiO 2 (110) substrates. Surface composition was studied by X-ray photoelectron spectroscopy, whereas secondary ion mass spectrometry was used to determine the depth distribution of Sn and Ti. For substrate temperatures below 600 °C, SnO 2 grows as an epitaxial film on top of the TiO 2 , but at higher temperatures there is evidence for pronounced interdiffusion between the substrate and the epilayer. At growt… Show more

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Cited by 21 publications
(19 citation statements)
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“…This conclusion parallels observations that been have made on the MBE growth of SnO 2 on TiO 2 ͑110͒. 36 Here it appears that the sticking probability for Sn under an O flux identical to that used in the current growth runs decreases dramatically for substrate temperatures above 775°C. A marked decrease in SnO 2 growth rate in plasma MBE with increasing substrate temperature was also found by Tsai et al 37 This contrasts with the behavior of In where the growth rate for In 2 O 3 seems largely independent of temperature between 650 and 900°C.…”
Section: A Morphology and Extent Of Sn Incorporationsupporting
confidence: 89%
“…This conclusion parallels observations that been have made on the MBE growth of SnO 2 on TiO 2 ͑110͒. 36 Here it appears that the sticking probability for Sn under an O flux identical to that used in the current growth runs decreases dramatically for substrate temperatures above 775°C. A marked decrease in SnO 2 growth rate in plasma MBE with increasing substrate temperature was also found by Tsai et al 37 This contrasts with the behavior of In where the growth rate for In 2 O 3 seems largely independent of temperature between 650 and 900°C.…”
Section: A Morphology and Extent Of Sn Incorporationsupporting
confidence: 89%
“…However, a slight decrease in μ H was observed for the film grown at T s = 700 °C in spite of the good crystallinity. We speculate that at such high T s , interdiffusion of Sn and Ti atoms occurred at the film/substrate interface 27 , which might have caused impurity scattering and thus suppressed μ H . Hereafter we fixed T s at 600 °C.…”
Section: Resultsmentioning
confidence: 97%
“…To verify the proposed model, we investigated film thickness and growth orientation dependence of μ H for TTO films with x = 3 × 10 −3 grown on various substrates [12][13][14][15][16][17][18][19][20][21][23][24][25][26][27]39,41,42 , (001)-, (101)-, and (110)-planes of TiO 2 , and m-, r-, and c-planes of Al 2 O 3 substrates (see Supplementary Fig. S4 online).…”
Section: Resultsmentioning
confidence: 99%
“…SnO 2 in rutile structure, a wide band gap n‐type semiconductor, has been widely used in semiconductor gas sensors , thin‐film transistors , solar cells , oxidation catalysts for CO , and CH 4 , transparent electrode for flat panel displays , and lithium ion batteries owing to low electrical resistivity, high transmission in the visible region, good electrochemical properties and high chemical stability. The fabrication of SnO 2 thin films, especially high quality epitaxial films, has been studied by various deposition techniques including oxygen plasma‐assisted molecular beam epitaxy , physical vapor deposition , pulsed laser deposition , spray pyrolysis , sputtering , atomic layer deposition (ALD) , and chemical vapor deposition (CVD) . CVD is an advantageous deposition method particularly suited for the synthesis of high purity crystals with excellent crystalline and optical properties .…”
Section: Introductionmentioning
confidence: 99%